Posts Tagged ‘green planet’

Guys, herewith some brief information about history of light prepared by some friends at Q-Ray LED Lighting. As technologies evolves the light become more green (i mean, not the light is green in color. It’s more likely going with less and less carbon foot prints).

Imagine if all the windows of a building, and perhaps even all its exterior walls, could be put to use as solar collectors. Soon, you may not have to imagine it, as the Norweigan solar power company EnSol has patented a thin film solar cell technology designed to be sprayed on to just such surfaces. Unlike traditional silicon-based solar cells, the film is composed of metal nanoparticles embedded in a transparent composite matrix, and operates on a different principle. EnSol is now developing the product with help from the University of Leicester’s Department of Physics and Astronomy.

“One of the key advantages is that it is a transparent thin film that can be coated onto window glass so that windows in buildings can also become power generators,” said Chris Binns, Professor of Nanotechnology at Leicester. “Obviously some light has to be absorbed in order to generate power but the windows would just have a slight tinting (though a transmission of only 8-10% is common place for windows in the ‘sun belt’ areas of the world). Conversely the structural material of the building can also be coated with a higher degree of absorption. This could be side panels of the building itself, or even in the form of ‘clip-together’ solar roof tiles.”

Research partners are developing prototype squares of the material, measuring 16 square centimeters each. Ultimately, EnSol hopes to achieve a cell efficiency of at least 20 percent, and have its product ready for the commercial market by 2016.

This development is reminiscent of Sphelar cells – solidified silicon drop-based solar cells recently developed by Kyosemi Corporation. Although the technology is different, they are also intended to be used in solar panels that double as windows.

This sounds like a sci-fi movie, instead – they use tomatoes other than humans! Thank god, we’re safe! We all know tomatoes pack a powerful acidic punch, but we never thought we’d see one lighting up a room! Cygalle Shapiro of Israel-based d-VISION has created an incredible LED lamp that is completely powered by real, edible tomatoes. Currently exhibited at the Milan Furniture Fair, the design collects energy from a chemical reaction between tomato acids, zinc, and copper. This design doesn’t only explore advances in lighting technology – its also an art piece that sends clear and powerful social-conscience messages about where and how we receive energy.

It’s tough work to find a small scale wind energy charger that works. While we’ve seeninnovative designs pop up over the last few years, it’s simply difficult to get enough wind coming through such a little device to charge devices. However, thanks to a company called Humdinger Wind Energy LLC, that might change with their new device called the microBelt. It is a piezoelectric turbine-based system that is purportedly 10 times more effective at gathering energy than other systems of the same size.

Humdinger is a start-up of of just 6 people, and they’ve developed a new method of gathering wind energy on a small scale. The system uses aeroelastic flutter and vibration of a membrane – rather than a spinning turbine – is at the core of the Microbelt, which is intended to replace the batteries used in wireless sensor networks (WSN). It can be used in applications such as HVAC systems, using the airflow to power the device and therefore skipping the need for more expensive batteries. And because the system doesn’t mess with spinning turbines that can break more easily, it expects a long lifespan – as much as 20 years.

It’s inexpensive as well as efficient. Ecofriend writes “Power is produced in air flows from as little as 3 m/s. At 5.5 m/s of wind flow the power output is 2mW. Apart from efficiency, another advantage of the system is that it is cheap to produce, as the materials are very simple. Humdinger is progressing applications such as building monitoring and transit monitoring that will rely on such wind turbines.”

Since there’s almost any size and shape of solar panel available for purchase from a myriad of vendors across the Internet why would anybody want to go through the hassle of tabbing together their own cells to build a solar panel? Because you can, obviously. This DIY video will run through the basics of chaining together polycrystalline cells and leaves the details like enclosure and such to the user.

How about a DIY electric car, with one of these Trexa EV platforms and start build your own electric car! Trexa is gunning to be the first electric vehicle devlopment platform, with a battery, driveline and power electronics built-in.

The Trexa platform offers an unprecedented level of versatility because it contains an entire vehicle’s drivetrain within one low-profile enclosed structure. The platform is highly scalable, so features such as range, suspension, torque, acceleration, and top speed can all be tailored to suit the vehicle’s intended purpose. For starters, the standard platform has an acceleration of 0-60mph in 8 sec, a top speed of 100mph, a 105 mile range, and a charge time of 4 hours (based upon an efficiency of 200Wh per mile — comparable to a Prius in electric mode).

You just add the passenger compartment on top. Want a pickup truck or a hot rod? The choice is yours, provided you’ve got the chops to put it together.

Egyptian naval architecture and design studio Pharos Marine has unveiled plans for a sleek new 60 metre eco-friendly superyacht dubbed the Orcageno, driven by an innovative hydrogen diesel-electric system that could theoretically deliver an incredible-sounding range of up to 13,000 nautical miles. Hydrogen fuel contains three times the energy of diesel fuel and produces no carbon monoxide or dioxide in the exhaust. The yacht is based around an advanced slender hull form with an axe bow, offering lower resistance due to low angle of entrance, inspired by Orca the killer whale and the gentler sperm whale (don’t ask us).

The interior features are just as stunning, with a spa and health centre positioned within the curved glass superstructure. A sun deck with Jacuzzi is surrounded by a leather-covered lounging area. The dining room is positioned forward with a fabulous view of the dual-level swimming pool and its hydraulically-operated glass sunroof. There are accommodations for 12 guests and 14 crew in total with the owner’s quarters being of course the most luxurious. The 13,000 nautical mile range is based on a cruising speed of 10 knots, while at the maximum speed of 18 knots the figure drops to a still impressive 7,100 NM.

Some people like suburbia for the wide open spaces, yards, and the sense of privacy, but the ‘burbs are not nearly as efficient as urban centers are. What if there was a way to bring all of the positive qualities of exurbia into the city while keeping all of the efficiency of an urban core? What about stacking blocks of suburban space onto blocks of urban space, similar in theory to vertical farms, creating modular gardens, orchards, parks, playing fields, community centers and even homes? The concept is already out there. Dreamed up by two Sydney-based architects, Skyburbs introduces the qualities of the suburbs into denser urban environments. (more…)

Powering our cars with algae-based fuel could be the next Apollo mission.” That’s what Rebecca Harrell, co-founder of the Veggie Van Organization and producer of the upcoming film FUEL, told me yesterday in front of San Francisco’s City Hall. Over the next 10 days she’ll be joined by Fuel director and Veggie Van Organization cofounder Josh Tickell as they take the Algaeus, along with a caravan of other green energy vehicles (including the Veggie Van and the biodiesel-powered big green energy bus), on a cross-country road trip. “It hit us that we needed to drive the car across the country,” Harrell said. “People think of algae fuel as this long-term, far off thing. But seeing is believing.

Did you know that melanin, the pigment in hair, is light sensitive and can be used as a conductor? Well, that’s what an 18 year old in Nepal recently discovered, and is now using human hair to replace silicon in solar panels. Since the price of hair is considerably cheaper than silicon, this enterprising youth may have just found a breakthrough technology to help bring down the cost of solar and give thousands of people in developing nations access to affordable renewable energy.